Snapdragon 845 vs Exynos 9810 vs Kirin 970. مقدمة. معالجات الفئات العليا لعام 2018 لكل من. سامسونج = اكسينوس. كوالكوم = سنابدراقون. هواوي = كيرن. ميدياتك = لم تقدم فئة عليا 2018 بعد. إنتل = لم تقدم فئة عليا 2018 بعد The new chipset is getting Samsung "ready for the upcoming 5G era." The Exynos 9810 chipset will be the direct competitor to Qualcomm's next flagship chipset Snapdragon 840 (or 845). Secondo il Benchmark il chipset Exynos 9810 ha prestazioni generali sintetiche più elevate dello Snapdragon 845. L' Exynos 9810 ottiene infatti un punteggio single core di 3648 punti e un punteggio multi-core di 8894 , superando quelle dello Snapdragon 845 che sono di 2378 punti in modalità single core e di 8132 punti in modalità multi core. Geekbench 5 is a cross plattform benchmark that heavily uses the systems memory. A fast memory will push the result a lot. The single-core test only uses one CPU core, the amount of cores or hyperthreading ability doesn't count. Samsung Exynos 9611 327 (16%) Qualcomm Snapdragon 720G 559 (27%) Exynos 9820 vs Snapdragon 855 for real world gaming? 835, 845, and now the 855, people forget how fast technology moves, look how fast pc graphics cards become obsolete, phones are no different. 2nd or 3rd Best processor in a android btw, I hate Apple and I know everyone here loves to hate Apple. But the A12 Bionic is a beast of a chip. Snapdragon 835 vs Exynos 9810 Snapdragon 835 is one generation older than the Exynos 9810 and it is far behind in terms of performance. However, the GPU of Snapdragon 835 is still better. Winner Exynos 9810 Exynos 8895 vs Exynos 9810 The Exynos 8895 is its predecessor and is weaker than it in terms of almost all aspects that we can think of. Winner Sunt sigur că toată lumea se întreabă care e diferenţa de performanţă între modelele Samsung Galaxy S8 cu procesor Snapdragon 835 şi cele cu procesor Exynos 8895.Cum am avut ocazia să vedem la treabă ieri aceasta din urmă versiune şi am realizat şi un test AnTuTu, îl putem compara cu rezultatele obţinute de alţi testeri. j453OqD. 56 características comparadasQualcomm Snapdragon 835Samsung Exynos 9810Por que Qualcomm Snapdragon 835 é melhor que Samsung Exynos 9810?Clock do GPU 138MHz mais rápido?710MHzvs572MHzPor que Samsung Exynos 9810 é melhor que Qualcomm Snapdragon 835?CPU mais rápida?4 x & 4 x x & 4 x mais rápidos?1200MBits/svs1024MBits/sUtiliza HMP?Carregamento mais rápido?200MBits/svs150MBits/s2 canais de memória a mais?4vs2Resultado do Geekbench 5 de núcleo único mais alto?685vs372Resultado do Geekbench 5 de múltiplos núcleos mais alto?2028vs1461Cache L1 256KB maior?384KBvs128KBAvaliações de usuáriosClassificação geralQualcomm Snapdragon 8354 Avaliações de usuáriosQualcomm Snapdragon Avaliações de usuáriosSamsung Exynos 98103 Avaliações de usuáriosSamsung Exynos Avaliações de usuáriosRecursoInformações geraisUm sistema operacional 32-bit pode suportar, no máximo, 4GB de RAM. Sistemas 64-bit permite mais do que 4GB, proporcionando maior desempenho. Também é possível executar aplicativos uma placa de vídeo integrada, você não precisa comprar uma placa pequenos proporcionam melhor desempenho e menor consumo de energia. Chipsets com um maior número de transistores, componentes semicondutores de dispositivos eletrônicos, oferecem mais poder computacional. Um fator de forma pequeno permite que mais transistores se encaixem em um chip, aumentando, assim, seu unidade de processamento gráfico GPU tem uma velocidade de clock mais DirectX é usado em games, com as versões mais novas suportando gráficos tecnologia sem fio 5G. A rede móvel de quinta geração oferece velocidades mais altas e latência menor do que a rede de quarta geração GPU Desconhecido. Ajude-nos sugerindo um valor. Samsung Exynos 9810Quando a GPU está rodando abaixo de suas limitações, ela pode aumentar a velocidade para um clock superior a fim de fornecer desempenho OpenGL ES Desconhecido. Ajude-nos sugerindo um valor. Samsung Exynos 9810O OpenGL ES é usado para games em dispositivos móveis, tais como smartphones. As versões mais recentes suportam gráficos OpenCL Desconhecido. Ajude-nos sugerindo um valor. Samsung Exynos 9810Alguns aplicativos usam OpenCL para desfrutar do poder da unidade de processamento de gráficos GPU para computação não gráfica. As versões mais recentes introduzem mais funcionalidade e melhor velocidade da CPU ou processador indica quantos ciclos de processamento podem ser executados por uma CPU a cada segundo, considerando todos os seus núcleos unidades de processamento. Essa velocidade é calculada pela soma da capacidade de cada núcleo – ou, no caso de processadores multinúcleos que empregam diferentes microarquiteturas, de cada grupo de threads resulta em desempenho mais rápido e melhor a tecnologia um chip pode alternar entre dois conjuntos de núcleos de processador, a fim de maximizar o desempenho do aparelho e a duração da bateria. Durante uma partida de jogo, por exemplo, os núcleos mais potentes são utilizados para otimizar a performance, enquanto o ato de checar e-mails aciona núcleos menos potentes para prolongar a duração da Multiprocessamento Heterogêneo HMP - "Heterogenous Multi-Processing" é uma versão mais avançada da tecnologia Nesta configuração, o processador pode utilizar todos os núcleos ao mesmo tempo, ou apenas um núcleo para tarefas de baixa intensidade. Isso pode, respectivamente, fornecer desempenho mais potente ou prolongar a duração da turbo do clock Desconhecido. Ajude-nos sugerindo um valor. Qualcomm Snapdragon 835 Desconhecido. Ajude-nos sugerindo um valor. Samsung Exynos 9810Quando a CPU estiver rodando abaixo de suas limitações, ela pode acelerar a velocidade de clock para oferecer desempenho cache L2 maior resulta em uma CPU mais rápida e no sistema como um cache L1 maior resulta em uma CPU mais rápida e no sistema como um de clock Desconhecido. Ajude-nos sugerindo um valor. Qualcomm Snapdragon 835 Desconhecido. Ajude-nos sugerindo um valor. Samsung Exynos 9810O multiplicador de clock controla a velocidade da L3 Desconhecido. Ajude-nos sugerindo um valor. Qualcomm Snapdragon 835Um cache L3 maior resulta em uma CPU mais rápida e no sistema como um suportar memória mais rápida, fornecendo melhor desempenho ao memória DDR Double Data Rate é o tipo mais comum de memória RAM. As versões mais recentes de memória DDR suportam velocidades máximas mais altas e consomem menos quantidade máxima de memória RAM.Esta é a taxa máxima de dados que podem ser lidos ou armazenados na canais de memória aumenta a velocidade de transferência de dados entre a memória e a eMMC Desconhecido. Ajude-nos sugerindo um valor. Samsung Exynos 9810Um versão mais elevada de eMMC permite interfaces de memória mais rápidos, o que tem um efeito positivo no desempenho do dispositivo. Por exemplo, quando transfere arquivos de seu computador para um armazenamento interno usando código corretor de erros de memória pode detectar e corrigir dados corrompidos. Ele é usado quando é essencial evitar corrupção, tal como em computação científica ou ao se executar um sistema em um chip SoC tem um chip celular LTE integrado. O LTE é capaz de fazer downloads a velocidades mais rápidas do que a antiga tecnologia velocidade de download é uma medida da largura de banda da conexão à internet, representando a taxa máxima de transferência de dados em que um dispositivo pode acessar conteúdo velocidade de upload é uma medida da largura de banda da conexão à internet, representando a taxa máxima de transferência de dados em que um dispositivo pode enviar informações para um servidor ou outro tecnologia integrada no processador para proteger o dispositivo para uso com ferramentas como pagamentos móveis e streaming de vídeo usando gerenciamento de direitos digitais DRM.A tecnologia multithreading como Hyperthreading da Intel ou Multithreading Simultâneo da AMD fornece um maior desempenho dividindo cada um dos núcleos físicos do processador em núcleos virtuais, também conhecidos como threads. Dessa forma, cada núcleo pode executar dois fluxos de instruções ao mesmo bit ajuda a proteger o computador de ataques fornece aceleração para processamento de mídia, tal como escutar AES é usado para acelerar a criptografia e a Floating-Point VFP é usado pelo processador para entregar desempenho aumentado em áreas tais como imagem 5 é um benchmark multiplataforma que mede o desempenho de núcleo único de um processador. Fonte Primate Labs, 2023Geekbench 5 é um benchmark multiplataforma que mede o desempenho de múltiplos núcleos de um processador. Fonte Primate Labs, 2023resultado PassMark Desconhecido. Ajude-nos sugerindo um valor. Qualcomm Snapdragon 835 Desconhecido. Ajude-nos sugerindo um valor. Samsung Exynos 9810Este índice de referência mede o desempenho da CPU usando múltiplas PassMark único Desconhecido. Ajude-nos sugerindo um valor. Qualcomm Snapdragon 835 Desconhecido. Ajude-nos sugerindo um valor. Samsung Exynos 9810Este índice de referência mede o desempenho da CPU usando uma única PassMark em overclock Desconhecido. Ajude-nos sugerindo um valor. Qualcomm Snapdragon 835 Desconhecido. Ajude-nos sugerindo um valor. Samsung Exynos 9810Este índice de referência mede o desempenho da CPU enquanto ela está com Snapdragon 8 Gen 2Qualcomm Snapdragon 8 Gen 1Qualcomm Snapdragon 8 Plus Gen 1MediaTek Dimensity 9200 PlusQualcomm Snapdragon 7c Plus Gen 3Exibir tudo VS We compared two 8-core processors Samsung Exynos 850 with Mali-G52 MP1 graphics and Qualcomm Snapdragon 835 Adreno 540. Here you will find the pros and cons of each chip, technical specs, and comprehensive tests in benchmarks, like AnTuTu and Geekbench. ReviewDifferencesBenchmarksAnTuTu v9GeekBench 5SpecsComments Review General comparison of performance, power consumption, and other indicators CPU Performance Single and multi-core processor tests Gaming Performance GPU performance in games and OpenCL/Vulcan Battery life Efficiency of battery consumption NanoReview Score Overall chip score Key Differences Main differences and advantages of each chip Pros of Samsung Exynos 850 Announced 3-years and 7-months laterHas a smaller size transistor 8 versus 10 nmHigher GPU frequency ~11%Better instruction set architecture Pros of Qualcomm Snapdragon 835 Performs better in floating-point computationsShows significantly better up to AnTuTu 9 score – 316K vs 146K23% higher CPU clock speed 2450 vs 2000 MHz Benchmarks Performance tests in popular benchmarks AnTuTu 9 The AnTuTu Benchmark measures CPU, GPU, RAM, and I/O performance in different scenarios CPU 43099 82968 GPU 24795 105394 Memory 35711 49513 UX 41901 75726 Total score 146475 316666 Submit your AnTuTu result GeekBench 5 The GeekBench test shows raw single-threaded and multithreaded CPU performance Image compression Mpixels/s Mpixels/s Face detection images/s images/s Speech recognition words/s words/s Machine learning images/s images/s Camera shooting images/s images/s HTML 5 Mnodes/s Mnodes/s SQLite Krows/s Krows/s 3DMark A cross-platform benchmark that assesses graphics performance in Vulkan Metal 3DMark Wild Life Performance Stability 98% 95% Graphics test 3 FPS 6 FPS Score 508 1165 Specifications Full list of technical specifications of Exynos 850 and Snapdragon 835 CPU Architecture 8x 2 GHz – Cortex-A55 4x GHz – Kryo 280 Cortex-A734x GHz – Kryo 280 Cortex-A53 Cores 8 8 Frequency 2000 MHz 2450 MHz Instruction set ARMv8-A L1 cache - 128 KB L2 cache - 2 MB Process 8 nanometers 10 nanometers Transistor count - 3 billion TDP 3 W 9 W Graphics GPU name Mali-G52 MP1 Adreno 540 Architecture Bifrost 2 Adreno 500 GPU frequency 820 MHz 739 MHz Execution units 6 2 Shading units 96 384 FLOPS 126 Gigaflops 567 Gigaflops Vulkan version OpenCL version DirectX version 12 12 Memory Memory type LPDDR4X LPDDR4X Memory frequency 1866 MHz 1866 MHz Bus 2x 16 Bit 2x 32 Bit Max bandwidth - Gbit/s Max size 8 GB 8 GB Multimedia ISP Neural processor NPU No Hexagon 682 Storage type eMMC UFS Max display resolution 2520 x 1080 3840 x 2160 Max camera resolution 1x 48MP, 2x 16MP 1x 32MP, 2x 16MP Video capture 1K at 60FPS 4K at 30FPS Video playback 1080p at 60FPS 4K at 30FPS Video codecs VP8, VP9 VP9 Audio codecs AIFF, CAF, MP3, MP4, WAV AAC, AIFF, CAF, MP3, MP4, WAV Connectivity Modem - X16 4G support LTE Cat. 13 LTE Cat. 16 5G support No No Download speed Up to 300 Mbps Up to 1000 Mbps Upload speed Up to 150 Mbps Up to 150 Mbps Wi-Fi 5 5 Bluetooth Navigation GPS, GLONASS, Beidou, Galileo GPS, GLONASS, Beidou, Galileo, QZSS, SBAS Cast your vote So, which SoC would you choose? Snapdragon 835 31 Total votes 36 Related Comparisons Please give your opinion on the comparison of Snapdragon 835 and Exynos 850, or ask any questions Qualcomm Snapdragon 835Samsung Exynos 9810Mengapa Qualcomm Snapdragon 835 lebih baik daripada Samsung Exynos 9810?GPU clock speed 138MHz lebih cepat?710MHzvs572MHzMengapa Samsung Exynos 9810 lebih baik daripada Qualcomm Snapdragon 835?CPU speed lebih cepat?4 x & 4 x x & 4 x lebih cepat?1200MBits/svs1024MBits/sMenggunakan HMP?Mengupload lebih cepat?200MBits/svs150MBits/sKanal memori 2 buah lebih banyak?4vs2Hasil Geekbench 5 single-core lebih tinggi?685vs372Hasil Geekbench 5 multi-core lebih tinggi?2028vs1461Cache L1 256KB lebih besar?384KBvs128KBUlasan penggunaPeringkat keseluruhanQualcomm Snapdragon 8354 Ulasan penggunaQualcomm Snapdragon 835Samsung Exynos 98103 Ulasan penggunaSamsung Exynos 9810FiturInfo UmumSistem operasi 32-bit hanya dapat mendukung RAM sampai 4GB. Sedangkan 64-bit bisa lebih dari 4GB, otomatis performanya lebih baik. Sistem 64-bit juga bisa menjalankan aplikasi kartu grafis yang disematkan, kamu tidak perlu membeli kartu grafis kecil memberikan kinerja yang lebih baik dan konsumsi daya yang lebih rendah. Chipset dengan jumlah transistor yang lebih banyak, komponen semikonduktor perangkat elektronik menawarkan lebih banyak daya komputasi. Faktor bentuk kecil memungkinkan lebih banyak transistor untuk dipasang pada sebuah chip, oleh karena itu meningkatkan Processing Unit GPU memiliki kecepatan clock yang lebih digunakan untuk permainan, dengan versi terbaru mendukung grafik yang lebih wireless generasi kelima memberikan kecepatan yang lebih tinggi dan latensi yang lebih rendah daripada teknologi generasi keempat GPU Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810Ketika GPU berjalan di bawah ambang batasnya, dapat dipacu ke clock speed yang lebih tinggi untuk meningkatkan OpenGL ES Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810OpenGL ES digunakan untuk permainan di perangkat mobile seperti smartphones. Versi terbaru untuk grafik yang lebih baikversi OpenCL Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810Beberapa aplikasi menggunakan OpenCL untuk mengatur Graphics Processing Unit GPU untuk komputasi non-graphical. Versi terbaru memperkenalkan banyak fungsi dan performa lebih CPU menunjukkan berapa banyak siklus pemrosesan per detik yang dapat dijalankan oleh CPU, dengan mempertimbangkan semua intinya unit pemrosesan. Ini dihitung dengan menambahkan clock rate masing-masing inti atau, dalam hal prosesor multi-inti yang menggunakan berbagai arsitektur mikro, masing-masing kelompok banyak hasil thread dalam performa yang lebih cepat dan multitasking yang lebih teknologi sebuah chip dapat beralih di antara dua set inti prosesor untuk memaksimalkan kinerja dan daya tahan baterai. Misalnya, saat bermain game, inti yang lebih kuat akan digunakan untuk meningkatkan kinerja, sedangkan memeriksa email akan menggunakan inti yang kurang kuat untuk memaksimalkan daya tahan Multi-Processing HMP adalah versi yang lebih canggih dari teknologi Dalam pengaturan ini, prosesor dapat menggunakan semua inti pada saat yang sama, atau hanya satu inti untuk tugas dengan intensitas rendah. Sehingga dapat memberikan kinerja yang kuat atau meningkatkan daya tahan waktu turbo Tidak diketahui. Bantu kami dengan menyarankan nilai. Qualcomm Snapdragon 835 Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810Ketika CPU berjalan di bawah ambang batasnya, dapat dipacu ke clock speed yang lebih tinggi untuk meningkatkan cache lebih besar di CPU yang lebih cepat dan cache lebih besar di CPU yang lebih cepat dan clock Tidak diketahui. Bantu kami dengan menyarankan nilai. Qualcomm Snapdragon 835 Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810Clock multiplier mengatur kecepatan CPUcache L3 Tidak diketahui. Bantu kami dengan menyarankan nilai. Qualcomm Snapdragon 835L3 cache lebih besar di CPU yang lebih cepat dan memori yang lebih cepat, yang menghasilkan performa sistem lebih memori DDR Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810Memori DDR Double Data Rate adalah jenis RAM paling umum. Versi DDR yang lebih baru mendukung kecepatan maksimum yang lebih tinggi dan lebih hemat memori maksimum RAM yang adalah tingkat maksimum yang data dapat dibaca dari atau disimpan ke dalam banyak kanal memori meningkatkan kecepatan perpindahan data antara memori dan CPUversi eMMC Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810Versi eMMC yang lebih tinggi memungkinkan antarmuka memori yang lebih cepat, berdampak positif pada kinerja perangkat. Misalnya, saat mentransfer file dari komputer ke penyimpanan internal melalui kode perbaikan kesalahan dapat mendeteksi kerusakan data. Ini digunakan ketika sangat penting menghidari kerusakan, seperti scientific computing atau ketika menjalankan pada sebuah chip SoC memiliki chip seluler LTE terintegrasi. LTE mampu men-download dengan kecepatan lebih cepat dari yang sebelumnya yaitu, teknologi unduh adalah ukuran bandwith koneksi internet, menunjukkan tingkat pengiriman data maksimum yang digunakan suatu perangkat untuk mengakses konten unggah adalah ukuran bandwidth koneksi internet, menunjukkan tingkat pengiriman data maksimum di mana sebuah perangkat dapat mengirim informasi ke server atau perangkat teknologi yang diintegrasikan kepada processor untuk mengamankan perangkat untuk digunakan dengan fitur-fitur seperti pembayaran telepon, dan video streaming menggunakan digital rights management DRMTeknologi multithreading seperti Hyperthreading dari Intel atau Simultanous Multithreading dari AMD memberikan peningkatan kinerja dengan memisahkan tiap-tiap inti fisik prosesor menjadi inti virtual, yang juga dikenal sebagai thread. Dengan cara ini, setiap inti dapat menjalankan dua aliran instruksi bit membantu melindungi komputer dari serangan menyediakan akeslerasi untuk memproses media, seperti mendengarkan MP3AES digunakan untuj mempercepat enkripsi dan Floating-Point VFP digunakan oleh processor untuk memberikan peningkatan kinerja di area seperti gambar 5 adalah perbandingan lintas platform yang mengukur kinerja inti tunggal prosesor Sumber Primate Labs, 2023Geekbench 5 adalah perbandingan lintas platform yang mengukur kinerja inti banyak dari sebuah prosesor Sumber Primate Labs, 2023hasil PassMark Tidak diketahui. Bantu kami dengan menyarankan nilai. Qualcomm Snapdragon 835 Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810Penghitungan ini mengukur kinerja CPU menggunakan multiple threadhasil PassMark tunggal Tidak diketahui. Bantu kami dengan menyarankan nilai. Qualcomm Snapdragon 835 Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810Penghitungan ini mengukur performa CPU menggunakan single threadhasil PassMark overclocked Tidak diketahui. Bantu kami dengan menyarankan nilai. Qualcomm Snapdragon 835 Tidak diketahui. Bantu kami dengan menyarankan nilai. Samsung Exynos 9810Penghitungan ini mengukur performa CPU ketika di Snapdragon 8 Gen 2Qualcomm Snapdragon 8 Gen 1Qualcomm Snapdragon 8 Plus Gen 1MediaTek Dimensity 9200 PlusQualcomm Snapdragon 7c Plus Gen 3Tunjukkan semua Samsung Exynos 9810 ► remove from comparisonThe Samsung Exynos 9 9810 is a mobile SoC for smartphones and tablets. It was announced early 2018 and should be integrated in the upcoming Samsung Galaxy S9 series at least partly. It integrates eight CPU cores octa core in two clusters. The performance cluster integrates four Samsung M3 at GHz and the power efficiency cluster four small ARM Cortex-A55 cores at GHz. The Samsung M3 cores are based on Samsungs own design and now offer a wider pipeline, improved cache memory and bigger caches. This leads to a twice as fast single-core performance and a 40 percent improved multi-core performance according to Samsung most likely compared to the previous Exynos 8898. The integrated LTE modem also got a siginifcant upgrade and now supports LTE for up to Gbps download and 200 Mbps upload. This is achieved with 6x20 MHz CA, 256-QAM in download and 2x20 MHz in upload. As a GPU, Samsung integrates a ARM Mali G72MP18 only 18 clusters, compared to the 20 clusters of the predecessor G71MP20. Most likely Samsung increases performance due to a higher core clock of the graphics card. The memory controller looks similar to the 8898 and supports LPDDR4x 1800 MHz. The video engine now also supports 10 bit videos as before 4k120 and VP9 de- and encoding. The SoC is produced at Samsung in the new 10nm LPP process the Exynos 8898 still used the 10nm LPE process that should also help with some of the performance Snapdragon 835 8998 ► remove from comparisonThe Qualcomm Snapdragon 835 Mobile Platform MSM8998 is a high-end SoC for smartphones mostly Android based that was released early 2017. Its one of the first processors that is manufactured in 10 nm LPE FinFET at Samsung. The SD835 is the successor to the Snapdragon 821. It integrates 4x Kryo 280 at GHz max for performance and 4x Kryo 280 at GHz max for efficiency. Furthermore offers an X16 LTE modem, WiFi, a dual-channel 32-Bit 1866 MHz LPDDR4x memory controller, an UFS controller, Hexagon 682 DSP, Spectra 180 Image Seonsor Prozessor, Bluetooth GPS, GLONASS, Baeidou, Galileo Satellite Exynos 9820 ► remove from comparisonThe Samsung Exynos 9 9820 is a mobile SoC for smartphones and tablets. It was announced late 2018 and was first integrated in the Samsung Galaxy S10 smartphones early 2019. The SoC integrates three clusters of processor cores with different architectures. Two big Samsung custom M4 cores clock up to GHz and deliver peak performance. Two additional ARM Cortex-A75 are also for performance tasks and clock at up to GHz. Finally, four small and power efficient ARM-Cortex A55 cores clock at up to GHz are in the third cluster. The different clusters can run simultaneously thanks to DinamIQ. The integrated LTE modem supports LTE-Advanced Pro 8CA 2 Gbps download, 3CA 316 Mbps upload. The integrated graphics card is a ARM Mali G76MP12 with 12 cores. The performance of the CPU part is positioned in the high end segment for smartphone processors. The single core performance is, thanks to the big custom cores, a strong suit of the CPU and reaches the levels of Apples mobile SoCs. The direct competitor Snapdragon 855 can be left behind in single-core benchmarks like Geekbench and operates on par in multi-core benchmarks. The predecessor Exynos 9810 can be bested by around 17% in our first benchmarks with the Galaxy S10 Plus. The SoC is produced at Samsung in the new 8nm LPP process that should also help with some of the performance Rating - Geekbench PCM Work, Sling Shot Physics, Antutu v8 CPU - Exynos 9820 Cinebench - Cinebench CPU Multi 64 BitCinebench - Cinebench CPU Single 64 BitCinebench R10 - Cinebench R10 Rend. Single 32bitCinebench R10 - Cinebench R10 Rend. Multi 32bit3DMark 11 - 3DM11 Performance Physicsmin 1493 avg 1501 median 4% max 1508 Points 3DMark - 3DMark Ice Storm Physics3DMark - 3DMark Ice Storm Extreme Physics3DMark - 3DMark Ice Storm Unlimited Physicsmin 18756 avg 23944 median 26226 22% max 26851 Points min 6729 avg 19196 median 20406 17% max 23046 Points min 31297 avg 32016 median 27% max 32308 Points 3DMark - 3DMark Cloud Gate Physics3DMark - 3DMark Fire Strike Standard Physics3DMark - 3DMark Sling Shot Extreme ES Unlimited Physicsmin 2546 avg 2717 median 33% max 3120 Points min 1520 avg 2849 median 2969 37% max 3161 Points min 2925 avg 3123 median 38% max 3480 Points 3DMark - 3DMark Sling Shot ES Unlimited Physicsmin 2561 avg 2752 median 38% max 3148 Points min 1631 avg 2766 median 2960 42% max 3189 Points min 3077 avg 3226 median 3087 44% max 3513 Points Geekbench - Geekbench - 64 Bit Single-CoreGeekbench - Geekbench - 64 Bit Multi-CoreGeekbench - Geekbench 64 Bit Single-CoreGeekbench - Geekbench 64 Bit Multi-CoreGeekbench - - Geekbench - 64 Bit Single-Coremin 3688 avg 3721 median 3698 38% max 3776 Points min 1809 avg 1917 median 1920 20% max 1973 Points min 4499 avg 4510 median 47% max 4529 Points Geekbench - - Geekbench - 64 Bit Multi-Coremin 8786 avg 8874 median 8874 10% max 8963 Points min 6006 avg 6515 median 6517 7% max 6799 Points min 10162 avg 10366 median 10374 12% max 10553 Points Geekbench - Geekbench 64 Bit Single-Coremin 814 avg 1733 median 2021 29% max 2075 Points min 4881 avg 4958 median 71% max 5034 Points Geekbench - Geekbench 64 Bit Multi-Coremin 2952 avg 5482 median 15% max 6552 Points min 10000 avg 10109 median 10109 25% max 10218 Points Geekbench 3 - Geekbench 3 64 Bit Multi-Coremin 5895 avg 5915 median 5915 9% max 5935 Points min 5674 avg 6126 median 6126 10% max 6578 Points min 7690 avg 7824 median 12% max 7957 Points Geekbench 3 - Geekbench 3 64 Bit Single-Coremin 1961 avg 1965 median 1965 29% max 1969 Points min 1933 avg 1954 median 1954 29% max 1975 Points min 2382 avg 2388 median 36% max 2393 Points Geekbench 3 - Geekbench 3 32 Bit Multi-Coremin 3960 avg 4100 median 4100 7% max 4240 Points Geekbench 3 - Geekbench 3 32 Bit Single-Coremin 1144 avg 1155 median 1155 23% max 1166 Points Geekbench 2 - 32 Bit - Geekbench Streammin 895 avg 1039 median 1039 8% max 1183 Points min 1810 avg 2308 median 2308 19% max 2806 Points min 1870 avg 1985 median 16% max 2099 Points Geekbench 2 - 32 Bit - Geekbench Memorymin 1898 avg 2002 median 18% max 2105 Points min 2528 avg 3500 median 32% max 4471 Points min 2997 avg 3050 median 28% max 3102 Points Geekbench 2 - 32 Bit - Geekbench Floating Pointmin 10213 avg 10328 median 10328 20% max 10443 Points min 11609 avg 12054 median 24% max 12498 Points min 14240 avg 14552 median 14552 29% max 14864 Points Geekbench 2 - 32 Bit - Geekbench Integermin 5651 avg 5656 median 5656 11% max 5661 Points min 5777 avg 5936 median 12% max 6094 Points min 7271 avg 7404 median 15% max 7536 Points Geekbench 2 - 32 Bit - Geekbench Total Scoremin 6025 avg 6099 median 16% max 6172 Points min 7193 avg 7226 median 7226 19% max 7259 Points min 8338 avg 8493 median 22% max 8647 Points Mozilla Kraken - Kraken Total Score *min 2060 avg 2509 median 2394 3% max 3189 ms min 2425 avg 3219 median 3175 4% max 4813 ms min 1823 avg 1961 median 2% max 2240 ms Sunspider - Sunspider Total Score *min 210 avg median 3% max 387 ms Octane V2 - Octane V2 Total Scoremin 12933 avg 14397 median 14% max 15233 Points min 3086 avg 11209 median 11484 11% max 14300 Points min 18697 avg 20121 median 19% max 20849 Points WebXPRT 3 - WebXPRT 3 Scoremin 63 avg median 68 16% max 72 Points AnTuTu v5 - AnTuTu v5 Total ScoreAnTuTu v6 - AnTuTu v6 Total Scoremin 214090 avg 218110 median 217950 74% max 222290 Points min 150208 avg 173235 median 175032 60% max 185487 Points min 269219 avg 275038 median 273831 93% max 283270 Points AnTuTu v7 - AnTuTu v7 MEMmin 7800 avg 8235 median 8294 25% max 8612 Points min 8164 avg 9635 median 27% max 16148 Points min 12202 avg 12486 median 38% max 13096 Points AnTuTu v7 - AnTuTu v7 UXmin 53528 avg 55588 median 55698 68% max 57538 Points min 42180 avg 44325 median 53% max 47943 Points min 67209 avg 68326 median 68203 84% max 69689 Points AnTuTu v7 - AnTuTu v7 GPUmin 91292 avg 92956 median 92887 29% max 94690 Points min 77533 avg 82910 median 83517 26% max 85868 Points min 148074 avg 148912 median 149162 46% max 149249 Points AnTuTu v7 - AnTuTu v7 CPUmin 80534 avg 86884 median 88577 54% max 91540 Points min 68241 avg 71814 median 44% max 73371 Points min 97864 avg 99848 median 99722 61% max 102082 Points AnTuTu v7 - AnTuTu v7 Total Scoremin 236552 avg 243663 median 243861 43% max 250577 Points min 201881 avg 208685 median 208251 37% max 217442 Points min 327454 avg 329572 median 328778 58% max 333277 Points AnTuTu v8 - AnTuTu v8 MEMAnTuTu v8 - AnTuTu v8 GPUAnTuTu v8 - AnTuTu v8 CPUAnTuTu v8 - AnTuTu v8 Total ScorePassMark PerformanceTest Mobile V1 - PerformanceTest Mobile V1 CPU Testsmin 121702 avg 154312 median 154312 20% max 186922 Points PCMark for Android - PCM f. Android Computer Visionmin 2385 avg 2407 median 2407 13% max 2429 Points min 3393 avg 3679 median 3705 20% max 3874 Points min 5013 avg 5063 median 5075 27% max 5101 Points PCMark for Android - PCM f. Android Storagemin 5088 avg 5342 median 11% max 5595 Points min 3927 avg 4679 median 4655 10% max 5195 Points min 8407 avg 8786 median 8830 19% max 9121 Points PCMark for Android - PCM f. Android Work Score 5184 avg 5411 median 5305 35% max 5851 Points min 5603 avg 6743 median 44% max 7510 Points min 7595 avg 7769 median 7758 51% max 7966 Points PCMark for Android - PCM f. Android Work Scoremin 5736 avg 6022 median 5891 29% max 6571 Points min 6854 avg 7925 median 40% max 9927 Points min 9557 avg 9777 median 49% max 10008 Points PCMark for Android - PCM f. Android Work Battery Lifemin 476 avg 551 median 11% max 585 min Average Benchmarks Samsung Exynos 9810 → 100% n=29Average Benchmarks Qualcomm Snapdragon 835 8998 → 102% n=29Average Benchmarks Samsung Exynos 9820 → 138% n=29 - Range of benchmark values for this graphics card - Average benchmark values for this graphics card* Smaller numbers mean a higher performance1 This benchmark is not used for the average calculationlog 12. 2221330 checking url part for id 9632 +0s ... 0s 1 checking url part for id 8554 +0s ... 0s 2 checking url part for id 11322 +0s ... 0s 3 not redirecting to Ajax server +0s ... 0s 4 did not recreate cache, as it is less than 5 days old! Created at Mon, 12 Jun 2023 135518 +0200 + ... 5 composed specs + ... 6 did output specs +0s ... 7 getting avg benchmarks for device 9632 + ... 8 got single benchmarks 9632 + ... 9 getting avg benchmarks for device 8554 + ... 10 got single benchmarks 8554 + ... 11 getting avg benchmarks for device 11322 + ... 12 got single benchmarks 11322 + ... 13 got avg benchmarks for devices +0s ... 14 min, max, avg, median took s + ... 15 return log +0s ... VS We compared two 8-core processors Samsung Exynos 9820 with Mali-G76 MP12 graphics and Qualcomm Snapdragon 835 Adreno 540. Here you will find the pros and cons of each chip, technical specs, and comprehensive tests in benchmarks, like AnTuTu and Geekbench. ReviewDifferencesBenchmarksAnTuTu v9GeekBench 5SpecsComments Review General comparison of performance, power consumption, and other indicators CPU Performance Single and multi-core processor tests Gaming Performance GPU performance in games and OpenCL/Vulcan Battery life Efficiency of battery consumption NanoReview Score Overall chip score Key Differences Main differences and advantages of each chip Pros of Samsung Exynos 9820 Announced 2-years laterShows significantly better up to 62% AnTuTu 9 score – 513K vs 316KHas a smaller size transistor 8 versus 10 nm11% higher CPU clock speed 2730 vs 2450 MHzSupports 12% higher memory bandwidth against GB/sBetter instruction set architecture Pros of Qualcomm Snapdragon 835 Higher GPU frequency ~5% Benchmarks Performance tests in popular benchmarks AnTuTu 9 The AnTuTu Benchmark measures CPU, GPU, RAM, and I/O performance in different scenarios CPU 133777 82968 GPU 178210 105394 Memory 88990 49513 UX 109918 75726 Total score 513831 316666 Submit your AnTuTu result GeekBench 5 The GeekBench test shows raw single-threaded and multithreaded CPU performance Image compression Mpixels/s Mpixels/s Face detection images/s images/s Speech recognition words/s words/s Machine learning images/s images/s Camera shooting images/s images/s HTML 5 Mnodes/s Mnodes/s SQLite Krows/s Krows/s 3DMark A cross-platform benchmark that assesses graphics performance in Vulkan Metal 3DMark Wild Life Performance Stability 82% 95% Graphics test 19 FPS 6 FPS Score 3228 1165 Specifications Full list of technical specifications of Exynos 9820 and Snapdragon 835 CPU Architecture 2x GHz – Mongoose M42x GHz – Cortex-A754x GHz – Cortex-A55 4x GHz – Kryo 280 Cortex-A734x GHz – Kryo 280 Cortex-A53 Cores 8 8 Frequency 2730 MHz 2450 MHz Instruction set ARMv8-A L1 cache - 128 KB L2 cache 2 MB 2 MB Process 8 nanometers 10 nanometers Transistor count billion 3 billion TDP - 9 W Graphics GPU name Mali-G76 MP12 Adreno 540 Architecture Bifrost 3 Adreno 500 GPU frequency 702 MHz 739 MHz Execution units 12 2 Shading units 192 384 FLOPS 607 Gigaflops 567 Gigaflops Vulkan version OpenCL version DirectX version 12 12 Memory Memory type LPDDR4X LPDDR4X Memory frequency 2133 MHz 1866 MHz Bus 4x 16 Bit 2x 32 Bit Max bandwidth Gbit/s Gbit/s Max size 12 GB 8 GB Multimedia ISP Neural processor NPU Yes Hexagon 682 Storage type UFS UFS UFS Max display resolution 3840 x 2400 3840 x 2160 Max camera resolution 1x 32MP, 2x 16MP 1x 32MP, 2x 16MP Video capture 8K at 30FPS, 4K at 150FPS 4K at 30FPS Video playback 8K at 30FPS, 4K at 150FPS 4K at 30FPS Video codecs VP9 VP9 Audio codecs AIFF, CAF, MP3, MP4, WAV AAC, AIFF, CAF, MP3, MP4, WAV Connectivity Modem Exynos 5100 X16 4G support LTE Cat. 20 LTE Cat. 16 5G support Yes No Download speed Up to 2000 Mbps Up to 1000 Mbps Upload speed Up to 316 Mbps Up to 150 Mbps Wi-Fi 6 5 Bluetooth Navigation GPS, GLONASS, Beidou, Galileo GPS, GLONASS, Beidou, Galileo, QZSS, SBAS Cast your vote So, which SoC would you choose? Snapdragon 835 18 Total votes 41 Related Comparisons Please give your opinion on the comparison of Snapdragon 835 and Exynos 9820, or ask any questions

snapdragon 835 vs exynos 9810